Mechanical ciphering system



. July 9, 1946. .1 1.. M'; PQTTS I v 2,403,682

MECHANICAL CIPHERING SYSTEM 1 Q OIfiginaI Filed Oct; 1 9',"1942 a SheetseSheet -1" I FIG. I

CENTRAL I 'INYENTOR LOUIS M.POTTS f ATTORNEY I BY July 9, 1946.: 1.1M. POTTS ECHANICAL CIPHERING V SYSTEM Origifiai Filed Oct. 19, 1942 s Sheets-Sheet 2 v I NVEF G TOR LOUIS M. POTTS' ATTORNEY July 9,' 1946. 'i L... M. POTTS' 2,403,682

- -VMECHANICAL CIPHEVIRINGJ, SYSTEM I V Original Filed Oct. 19 1942 i a Sheets-Sheet 4 INVENTQR LOUIS M. POTTS ATTORNEY July 1946- L. M. Po r rs 2,4035682 I MECHANICAL GIPHERING SYSTEM Original Filed Oct. 19) 1942 8 Sheets-Sheet e m'vsmon I LOUIS u. POTTS 'ATTO EY Patented July 9/1946 UNITED ST -T Delaware Orl 462,522. Divided and ber is; 1944, Serial No. 554,031

zs bassz MECHANICALQIPBEEING Louis M. rotmnvnnton, in,

type Corporation, Chicago, IlL,

n ap lica'tion dctober'lii, 1942, p this application Septem 1 m asaignor to Tele acorporation oi I Serial No.

1 2 (Cl. is- 71)" "if This invention pertains to printing telegraph systems and particularly to a system for. the. transmission and reception oisecret telegraph messages.

This application is v plication SerialNo. 462,522, filed October 19, 1942.

Secret signalling systemsv are desirable for,

naval, military and civil purposes wherein it is necessary that certain messages be rendered un-v interceptible by unauthorized persons. The'surreptitious interception of messages by unauthor' ized persons might be accomplished, for vexample,

in the'case oi' wire communication by tapping sis quencies. It has been proposed as exemplified by the" G, S.

a division 0! copending op,

, nal wires or in the case of radio transmission by. receiving apparatuses tuned to the proper ire- Vernam Patent N0. 1,310,719, dated July 22, 1919, r

to provide a system for sending enciphered'mes sages in which the the unit Baudot code is employed. ,In general, the cipheringsystem de-fscribed in the Vernam patent utilizesan arrangement wherein one set .of me contacts are controlled by. either enciphered for original signals and a second set of five contacts are'controlled by key signals provided through .the instrumentality of a key tape. The two sets of contacts are operated in synchronism to control iointlysa' setoi five relays in order to encipher or decipher mes- As is well known in the printing, telegraph art the individual code combinations of the live unit ;()rlgihal ll1" 'M' s M s uKeyslgnsW'LJ. s M s M Resultant enoiphered signal, Mme M M M M sages according to the direction of transmission. so

Baudot code are made up or a series of marking and spacing impulses which are customarily in the form oi current impulsesrepresentativeoi marking conditions and nocurrent impulses representative o! spacing 'conditions.. In 'starte'stop' telegraphy which is, herein employed the iive unit code is'preceded by a start or spacing 'impuls'ea'nd followed by a stop or marking impulse.

" In order to encipher messages by the system or code combination, etc. To, take a speciflc'illustration let'it be assumed that it is desired to en'- cipherftheletter "R" which in the Baudot code is composedconsecutively oi spacing, markin spacingmarking, and spacing conditions; Let it be further assumed that the key tape with which the particular enciphering operation is to be periormed ccupies a position whereat it is conditioned for producing the letter KY combinationwhich in t'he'Baudot code is composed consecutively or marking, spacing. marking; spacing, and marking conditions. iUnderthese assumed conditionsthe enclphering operation would result'in the production of an all-marking or letters" combination since in this case opposite conditions of .all the elements of theiR" and Y code combinations are provided. This will be readily apparent from the following-chart wherein the I letter Mdndicates a' marking condition and the i m letter 5 indicates a spacing condition.

signals with the key signalsprovided-by its key tape. To illustrate a deciphering operation the example given above in connection with the enciphering operation willbe continued and it will be assumed that a receiving stationreceived the .enciphered signal; namely, "letters. The "Y the present inventionthe elements'oi'the original J code combination are combined with the elements otj code combinations provided by a key tape. In this arrangement opposite conditions, that is, with one element of the original code combination marking and with one element oiflthe key code i T combination spacin produce a marking signaL.

Like conditions, however, that is with both elements marking or .both elements spacing,'produce spacing signals. This presumes, of course, that each of the elements or the respective code com binatlons are related'to each other. Thus the No.1 element or the original code combination is combined with the No. 1. element of thekey tor w.151 2221'111::1;:1

combinationp'rovided by the key tape at the receiving station can now be combined with the r.,letters",' comblnaticu to decipherthe enciphered signal to thereby reproduce-the. original signal R as clearly shown in the following chart.

M M s h t h 7 0riginaisignalB 8 NZ 5 M S The use of mechanically controlled and op- 'erated signalling arrangements have demonssstrated advantages not obtainable in systems quirements, do not operate with the efilciency and comparatively slight maintenance afforded in mechanical systems. A mechanical enciphering arrangement employing permutationcode combinations with its attendant advantages over electrically controlled systems has thus far not been proposed. Mechanical enciphering systems are particularly desirable for the transmissionof secret messages wherein it is advisable that signal distortion be kept to a minimum and that maintenance troubles do not delay communicating operations.

will be contained in a small portable receptacle that may be conveniently, carried for use at locations having standard printing telegraph apparatus. A set of plugs are included with the unit to enable the unit to be quickly and easily associated with standard telegraph apparatus.

The invention may be more readily understood fromthe following detailed description and the drawings wherein! Fig. 1 is a-simplifled diagram of two outlying stations associated with central ofllce exchanges;

' unit embodied in the present invention included embodiment of; the invention, partly insection Accordingly the primary object of the present A further object of the invention'is the provision of a portable mechanically operated ciphering unit which may be readily associatedwith standard printing telegraph apparatus used for telegraphic communication. A feature or this invention is the employment of directional "switching means for automatically conditioning a ciphering unit for either enciphering or deciphering operations dependent upon the direction of transmission.

An additional feature of the present invention is the provision of .a mechanical enciphering unit in the form of a regenerative repeater.

Other features and advantages of the invention will appear as the description progresses and accordingly the invention should not be limited by the specific recitals appearing above.

The invention herein described utilizes a portable mechanical ciphering unit in the form of a regenerative repeater resembling the regenerative repeater illustrated in Patent No. 2,105,173 to W.

J. Zenner et al., dated January 11, 1938. The unit includes a signal transmitting contact lever operable sequentially by a series of selector bars in accordance with the joint control exercisedover the bars by a series of levers which may be under the direct control of a key tape or in a modification of the invention under the control of a set of five code magnets and a single armature lever controlled by a selector magnet which may respond to either enciphered or deciphered signals. It is understood, of course, that other equivalen means of control may be employed.

The proposed construction includes a complete circuit system for operation of the unit which controls directional switching means for auto- I matically enciphering or deciphering messages detion; a

2 is an illustration of a portable cipherin in a carryingcase;

Fig. 3 is a front elevational view of the main and partly broken; away for the sake of clarity.

Fig. 4 is a fragmentary perspective view of a portion of the starting mechanism embodied in the present invention;

Fig. 5 is an end elevational view of-th appara. tus shown in Fi 3;

Fig. 6 is a detailedperspective view of a direction switch used in connection with the inven- Fig. 7 illu'stratesthe circuit employed in the main embodiment of the invention;

Fig. 8 is a detailed view of a portion of the starting mechanism, another view of which is shown in Fig.4; V

Fig. 9 is a sectional view of the clutch release bail, taken on line 9-. of Fig. 5;

Fig. 10 is a detailed view of the start bar operating mechanism; I

Fig. 11 is a detailed view of the stop bar operating mechanism; Fig. '12 is a fragmentary ing mechanism;

Fig. 13 is a view illustrating the operation of a c d a Fig. i4 is a detailed view of the tape feeler bail;

Fig. 15is a front elevational view of a modification of the invention;

Fig. '16 is an end elevational view of the modii'i cation shown inFig. 15. I 1 h Fig. 1'7 .is a circuit diagram view ofthe tap feed- :er use with the modified form of the invention; and

.mayby plug connections, be readily associated with standard printing telegraph units II and 22 which are respectively connected with central telegraph ofiices or exchanges 23 and- 24. At the centraloflice 23 there maybe provided a printing directly or permanently to each other.

able unit 20 may be readily carried in its carrytelegraph unitfilvrlth'which th'ereis permanently associated a ciphering unit 26.. This illustration is, of course, merely exemplary however and instead of being connected injan exchange, the units II and 22 may if desired be connected The porting case}? so that the unit may be conveniently used at different locations, where standard printing telegraph apparatus isavailable.

By reference'to the drawings, the main embodiment. of the invention will now be described in detail. In Fig. 51's illustrated a motor3l which by gear 32 drives gear 33 to which there is fixedly secured a relatively long operating shaft 34. The shaft 34 is journalled at one end in a, bearing 35 which is fitted in a frame 36. A bearing 31 carried by bracket 38 attached to the frame 38 also notch 84- by the stop arm'42. i The cam sleeve th'us enabled tomake' a Sin81e1eV01lltiOn al1d -t ries direction control bar cams 53 and" best illustrated in Fig. 6 ends clutch release came.

- v The right-hand end of cam sleeve asviewed.

' in Fig. consists oi' an integral disc flange and the opposite'end of the sleeve supports a'flanger 51 threaded thereon. "At the'correspondingend Between flanges 58 and 58 isepositioned "a felt trio-t tion member 58s At the intermediatefportion o'if shaft 34 a sleeve which carriesfa fia ngedporof shaft 34 is fixedly securedalflange disc 58.

tion 62 is mounted for 'a slidablemov'ementtby I means of a, splined connection with adjustable nut 48. Interposed betweenflange discs 62 and 51 is a friction felt member 83. Secured to the shaft 34 is the adjustable nut 48 which bears in acounterclockwise direction.

against a compressionspring 58 to urge the spring against the flangedisc 8? thus to urge the entire sleeve 4| to the right as viewed in Fig.5; v

In Figs. 4 and 8 the start mechanism is il1us-' itrated which permits the rotation of :the cam sleeve 4! through the slip friction clutch arrangement provided by the friction felt members 59 and 88. :Astis well known in the, printing'telegraphthere'ception of the start impulse which precedes the five unit code combination and is stopped upon receipt'of the stop impulse'which is received after the .completion'ot the live unit code art, cam sleeve 4| is released for rotation upon combination. As will be further described in detail either a selector. magnet 84- (Fig 4).,oria start magnet. Gamay receive the start impulse in order to release the cam sleeve 4l'. According tolls. 3 armature lever 85 of selector magnet 64 is-piw 1 oted about shaft 81 and is urged in counterclockwise ,direction by a spring 88. Armature lever about shaftnlq '(Fig. 5) andlikewise normally is urged in a counterclockwise direction as viewed in Fig. 3 by a spring IL Armaturelever 68 carries" a laterallyextending projection 12 (Fig. 4) en gageablewith an adjustable screw, II of'stop lever 14, which is pivoted about the stud 15, upon'de energization of selector magnet 84. .Likewise'armature lever "associated with startmagnetfl carries a vertically extending portion 18, which V 68 associated with the start magnet 85 is pivoted incomingmes'sagesg The controlbar 88 normally be again -stoppedgwhen' thestopj arm once more 1 abuts against the notch 84 ofthe gate latch 88., Positioned-below the cam sleeve 4| is a series of five ,codebars 85 which are mounted for slidable and pivotal movement within the comb members88.' 'A -series of springs 81 normally. urge their associated code bars 85 upwardand to'the rightehand position asclearlyillustrated in Fig.

18.; comb members 88 have alsoimounted' therein a start bar 88 and a stop bari89 (Figs. 5,

1.0, and "1l;).-, The start bar 88 islmounted for counterclockwise pivotal movements as viewed in Fig, ,10 about the post "and is provided with a 1 bifurcated portion 82 for engagement with the post 81.- The bar 88 is normally urged in a clockwise direction aboutpi'vot 8| by aspring 93. The

stop he;- 88 is arranged I01 clockwise.pivotal movement, as illustrated in Eig.,l1 about-its as-, sociatedbifurcated'tportion 84 which engages'post '85. 'A-spring 86 normally urges the'stop bar 88 *In addition to the code bars (the start bar 88 and the stop bar 88,. the comb 'mernberaj alsom'ount a direction switch bar, 81 and editedtion, control'bar 88 bestillustrated in Ei'gl fi; I code bars 85, the start bar 88, the stop188,and thevcontrolbar" are all operable by associated;

I -shaped operating levers "which are pivoted about shaft m and controlled by their respective .carns. 'Theruppe'r portion of each 'T-lever is in j enga ementawith its. associated cam ands-1 the ment" with its associated bar.

lower portion of eachlever is inJ-bearingengaget The purpose'tof the direction barll 'tolcon'dition the direction switch I" according to the direction of transmission. When switchnllic; occupies its normal position to the I 1 -left it' is inposition to cont'rol the 'encipherlng and retransmission of Iolltgoingf'rnes sages 1 1;. g v v nating atthestation whereat the'c'iphering unit is located,- whereas whenit isrmoved' to the right it is in-a position tocontrol the'deciphering "oi! is urged to the'rightand in an'upward direction engages anadjustable screw 1]; mounted-onthe stop'arm 14. Itis, therefore, obvious that deenergization of either magnet '84 or 88 may a. clockwise movement'ot the stopvarm as -viewedin1"ig'.4.

Clockwise pivotal movement'oi' stop, leverf"| 4* I will causeits projection l8 to'bear against a pin H member 38 vtooperate a bell crank (Fig, 8) v which is pivoted at 18 tothereby cause clockwise; pivotal 'movement' oi lever 18 against: the influence of its compression spring 8|. At its lower end lever "n has a. notch 82 which in the stop position oi theapparatus locks agate latch ,83 pivoted'at 88. Latch 83 carries a notchedapor- "tion 84 which is'normally in blocking relationship with the aforementioned'stoparm 42 whichis fixedly secured to jthe ,can11s1eeve,4|. 'When-the .above described operation takestplacqthe notch;

82 of lever 18 moves out offthe path of gate latch 83 and the stop arm 84 ,isnowenabled to overcome v a the ior'ce'of a spring associated with the gate a latch due to the greater force exerted against 718 I a by spring I 82 and the bar-.88 may pivot in either a clockwise or ;a-gcounterclockwise direction as will immediately hereinafter appear."v The resiliency of the contact springs associated' with the r direction switch lfllsuflices normally to urge the direction-bar to the left or transmitting position due to the engagement ofthe lateral projecwhen signals are, outgoing from the associated station apparatuathe selector magnet 84 receives a spacingv orf no currentstart impulse therefrom, vthereby enabling the armature lever 88 tomove away iromtheiselectormagnet in a counterclock- T wise direction as viewed in Fig. 3. Whenfthis v occui'sxthe upper vportion'oi the armature lever 1 ilwill'n ove frombeneath the notch portion I88 of the controllbar as directly to u derli re lowerportionof the control ban, As cam sleeve 4i starts rota 'on,fa's previously explained,"dire I 7 eratin'g lever '88 to move the lever in 'acl'ockwise tion' control camjtwill operate its r shaped opasmuchzas itis desired at this time to allow the direction switch to remain in its normal transmitting position. 1

However. when signals are incoming from a remote station, start magnet 55 will receive a start impulse of no-current or spacing nature tosetthe sleeve 4I into rotation. Under these conditions-the selector magnet 84 remains energized andconsequently its upper portion continues to underlie the notch I55 of the direction control bar 55. Therefore, when sleeve 4| is released cam 55 operates against its T-lever 55 thereby to tilt the direction control bar It in a counterclock-- wise direction about rod 8| asa fulcrum. when this occurs the control bar strikes the lower arm of a bell crank member .I II which is pivoted at I", thereby causing the bell crank to rock in a clockwise direction. This causes the vertical arm .0! the bell crank to engage thebent over flange portion I55 of the direction'switch bar 51 thereby shifting the direction switch bar 51 to the right.

Whenthis occurs theflange portion I of the direction switch bar 51 engages the insulating against the projections IIII of the code bars 85 to urge the code bars to the left against the influence of their associated springs 51- The tape feelerlevers I25 are pivoted at I50 and are urged in a counterclockwise direction as viewed in Fig. 3

.by springs I25 so that when a perforation is sensed by a particular feeler lever its feeler pin mayproject through the tape due to the force exerted by spring I20.-

portion m of switch m to operate the'switch to theright-hand position as shown in Fig.6. Substantially simultaneously with the operation cream 52 to depress the lever 55, cam 54 also carried upon sleeve 4| operates'to releasethe bell crank latching lever I" (Fig. 6) which is pivotedat Ill and is normally urged into operative rela- 'tionship with the cam by a spring III. The bell crank I" has a'horizontally extending latching arm II2 having a downwardly projecting point which is adapted to engage'notch H3 or the direction switch bar 51 when the switch bar is moved to the right, as just explained. The arm "2 of bell crank illtherefore is immediately released upon 'the rotation of the cam sleeve 4| and thus latches the bar 51 in its right-hand positionduring the reception of incoming signals from the'remote station. Near the end 'of its revolution. cam 54 operates. again to move the bell crank Ill in a counterclockwise direction as viewed in Fig. Bthereby to release the projecting portion In from the notch u: of the direction switch bar 51. The direction switchbar 91 accordingly is shifted to the left under the influence of the contact springs of switch I00, which areqin a flexed condition when the switch is positioncd to the right.

Positioned below the code bars 85, the start bar 55-," and the stop bar 89 is a substantially Y- 'shaped retransmitting lever I (Fig. 3) which has laterally extending projections I I5, I I5, which underlie all of the just mentioned bars. An insulated contact arm I" is attached to-the pro- Section -I I5, which operates transmitting contact II The Y-shaped lever II! is pivoted at point II 'and may be moved to either a counterclockwise'or clockwise position and be retained in either position by thejockey arm I2I pivoted at I22 and normally urged in a counterclockwise direction (Fig.3) by a spring I23.

-When cam sleeve 4| is started into rotation, the direction switch bar 91 is operatedas indicated, and invariably start cam 5I (Fig. 10) operates,

To control the operation of the key tape mechanism there is provided a second cam sleeve I3I which is mounted upon the shaft 54. Sleeve I3I carries an integral collar I52, against which abuts one end ofa compression springisl, the other end of which is in abutting relationship with a collar I of sleeve I35 which has a splined'con-v nection with the sleeve III. Spring I33 tends to urge the collar I to the left as clearly illustrated in Fig. 5. The sleeve I35 constitutes the driven portion of a positive clutch indicated generally at I35. vThe sleeve I35 also carries a cam stopp m surface Ill which cooperates with the extension I35 of the clutch release bail I39 which carries outwardly extending pivot arms I (Fig. 9) supported on the pivot shaft I52. A spring I normally urges the clutch release bail in a clockwise direction as clearly shown in Fig. 9 by its attachment to the tail portion-I of the ball.

by means of its T-shaped operating lever 99, start lower portion. other 88 to contact the arm H5 of the Y-shaped lever II4 to tilt the Y-shaped lever'I ll in a counterclockwise direction whereupon contact arm I" is operated to its upward or spacing position. The start bar 88 has a comparatively large notch I25 inorder to insure that The extending arm I35 in the stop position of sleeve III is normally in blocking relationship with respect to the stopping cam surface II! and therefore urges the sleeve I35 to the right as'viewed in Fig. 5. This maintains the driven portion I35 of clutch I25 out of engagement with the driving portion I45 of the clutch which is fixedly secured to'the shaft 24. Ball I39 also carries a projection I56 for following engagement with cam 55 carried by sleeve I.

When'the sleeve 4| has almost completed its revolution and' is about to cause the sending. of the stop impulse, as will later appear, cam 55 will function by its engagement with the follower arm I45 to tilt the bail MI in a counterclockwise direction (as viewed inFl'g. 9) to release the projection I28 from the path of the cam stopping surface I 51 of the driven sleeve I35 of clutch I35. This enables the spring III to shift the clutch member I35 to the left to enable the positive engagement'of clutch I 35 to release sleeve III for rotation. Sleeve I3I carries thereon a tape ment of projection I'III of the feeler ball with feeler levers I25. -With the feeler pins 12! momentarily held in this position cam 'I5I operates against the follower I56 of atape feed bail I51 pivoted at y I", which under the influence of spring Iii-rotates bail Iii-in a counterclockwise direction as viewedin Fig. 12. This causes feed pawl m which is pivoted to the'bail at m to advance the feed ratchet I52 one step.= Feedp'awl? I59 is urged against the teeth of the feed ratchet by means of a spring I63.

Cam I |:next acts against the follower -I:58-to rock bail I51 in a clockwise direction to bring back the stepping pawl I59 in position ior the next; stepping operation; Immediately after this operation cam "I52 operates against "theiiollower I53 ofthe tape feeler bail] 54toperinit thefeelers I21 to sense theltape;

alternate form ofclutch release'mechanlsm is shown" inFig. 18, wherein an interpon'ent lis provided betweenthe cam ,-55 and the follower' arm I45 of the form ofclut'ch release mechanism shown in Fig. 9, Referring toFig. '18, theclutch release bail 539 is provided with a-pair ofpivot arms '54I; supported on the pivot shaft542.--A. spring 543 normally urges the clutch releasebail ij pulled up its armature lever 86 so that the aims.-

ture lever is in alignment with the notch 50 of the No. 1 selector bar-85 therebeing; a similar notch onall of the other, code bars 85. ,.The No.- 1

code bar operating cam 44 will at this timeoper ate its T-shapedop'erating lever 99 to cause the depression and pivotal movement of the No. 1 codebar; 85. Since notchflllris alignment with the upper portion of armature lever 88 the bar in a clockwise direction by its att'achment to the tail portion 544 of the'bail 539. The upwardly extending arm-538is comparable to farm'l38 of the driven portionv of the clutchlout of engagementwith the driving portion thereof during stop intervals. The bail 539: is also provided with an;

I the form'shown in Fig;9;-andserves-to maintain will 'pivotvabout the "post 9| causing thebar 85 to engage "the; projection I I5: of v the .Y-shaped At. this time lockey arrn I2I will hold the!- shaped lever H4, in its selected position. It will be understood however tha't when the Y-shaped lever H4 has-previously beentilted'to' the desired position it not need tob'e again shifted.

It is thus readily K apparent fromthe above descrlption that whenever a tape 'feeler lever" I is in its marking position and the selector \armaq ture lever is also in its marking position that a arm 54-5," (comparable"to arin'I48 {which in the j present instance isfnot 'directly .cooperable with cam 55, but cooperates therewith throu'gh the instruinentality "of an interponent '55I depending from a bell crank"'552 pivoted at 5531 Bell Acrank 552 is held in its clockwise or counterclockwise position by a detent 554. When*bell'crank 552 is in its clockwise'p'osition(shown' in Fig.--18),

the interponent55l is operative betweencam -55 and arrh'548 to tilt the bail 539 cyclically to efl'ect the release of stop arm 538 to permitengagement v of theclutch elements on the other hand; when; the bell crank 552 assumes" its counterclockwise:

position "(by manually operatingith vertical arm of the bell crank), the int'e'rponentl55l will-be raised out of cooperative relations with canr'55 l and arm 546, thus renderingbail 538no'n opera- 1 system was predicated upon the use'ct combined signals provided by a key tape anda selector ma8- net in which opposite conditions of the individual with respect to the upper extremity of the arma col'ture lever 56 so that the upper portion of the spacing signalfwillbe sent by the retransmitting contact arm I l 1. In response to a spacing condition,ithe feelerlpin I-Zlwillnotiind aperi'oration I in the tape andghence, bar 85 will remain lnits leftward position, as viewed in Figs. 3 and: 13. 1 Also, the-selector. magnet 85 will he de-energized,

and itsarmature Iii-will be biased to its counter-' ,clockwi eo lqn y prin 8p h v he notch L90 of bar 85 will be'aligned vertically with the ireeend of armature qliifi'hus itis further apparent j that when both 'sthe tap'e feeler lever and itsparticularly;associated code bar are both, in the spacing position .thata, like condition will occur andthecontact operating arm II I wlllbe tiltedjin {a counterclockwise position to its up or spacing position since the up rextremity of {armature lever will beoppositefa notchfiq of a code bar 85. "When, however; opposite conditions exist} between the selector leverIiG and a particu- ..lar code'barj 5, the particular code bar'will pivot in aclockwisedire tion due to the blocking condl tion obtainedby the upper extremityv oi the se- 1 .leotor armature lever 88.- In cthervwords, under this last mentionedcondition the notch-90 of the particular code bar Operated will be offset lever acts as aiulcrum point, and when the as- ;sociated T-lever sfl is}, operated, the particular elements of the 'code' combination produced" marking conditions; while. like conditions suchasboth marking" or both spacing produced spacing impulses. 'Withthis system in mind the. descrip- 'of the invention it will be presume'd that thefcam sleeve 4I' has been released forfrotation' by reta ceipt of the start impulse and that the tape I26 occupies a nhw position as has'iu'st been deV-- 1 tion will proceed. In order to describe this phase scribed above, and "that the 'ree e'rpms lzr re each code bar 85 has formed thereon agrooxfe now conditioned 'for as'en'singoperation.- 'Ifthe No. 1 i'eeler pin of thejpins I21should-now be g to the removal of theieeler lever from projection element of key 64, which is now recelving' 'its No. limpuls'ejls also markl'ngat this particulartime it will" have sensing, a perforation, its assotiiat'miieeler lever I25'would be urged in a counterclockwise direction by spring I28. This enables the No. 1" code bar 85 to be pulled to the righta's viewed in Figs.

3 and 13 and underthe influence of spring BLdue' IIII-of the code bar; This sensing-ofaper-fora tion indicates a marking condition inthe; No; 1 tape "I26; If the selector magnet code harwill pivotin;aclockwlse direction to ,engagethe projection 'I I5 of .Y-shaped lever II4 thereby to positionthe contact operating arm I I1 Jot a markingroperation, unless, of course, it has already assumed v-such position in a. preceding .code;'combination-.. 1 a

' The upper portion of selectcr armature lever 88,;lsibeve1edas indicatedat I59, Fig. -13, while I'8'l This arrangement insures the locking selectorilever 86- during a marking operation when apartlcular code bar pivots in a clockwise direction, I as previously explained, and thus gives the so-calleclknifeedge selection. When a 'spa'cingpperation; takes place, however, the.

armature lever 168,- engag in the-notch 88 P 1 Jvided by this, particular codebanand is, thereforeprestrained from movement so. that no spe- 'cial' locking; means is needed;v

1* After every five unit combination is transmitted; stop cam, 52, is invariably effective to send afm'arkin'ggfor stop in pulse. a By reference to ,Eigullitcan-be seen that the stop bar 89 has no counterclockwise direction to cause the vcontact armsIII tot-move to its up or -spacing position.

venient outlet notches formed therein and that the II is pivoted about the post 85 at its bifurcation ll. Bar I therefore mayonly rotate in a clockwise direction as shown in Fig. 11. Bar 88 will be in- 'variably' Operated to tilt the Y-shaped lever I ilin a clockwise direction-to condition the contact arm i'llf'to senda marking impulse. dueto the 1 engagement'of the stop code bar" with the pro-.

iection ill of the Y-shaped lever HI. Selector armature lever "is-provided with an Jupstanding follower arm .18 (Figs)- which is adapted toeng'age the flutter cam ll held by the amass:

. I current flow.

sleeve 4L Just prior to the beginning of each 7 signal impulse 'the fluttercam 0 acts tomove the armature lever 68 towards the selector magnet to assist operation of the selector magnet when marking impulsesare received.

' Referring now to Fig. "I, the circuit adapted for I use in connection with the Justdescribedm'echanic'alcipherin'g arrangement will now be explained. It will be presumed that station I! de-' sires tocommunicate' with a distant station 22 connected respectively to central exchanges .23

and 24 as also shown in Fig. 1.1' The distant station 22,'of will be providedwith a inechanical ciphering unit similarto theone which hasiust been described." In'viewof the fact that all locations do not provide both alternating and direct current there is included with the ciphering unit means for providing either-A. C. or D. C. current and a manually operated current switch ill in order to conditionthe system for operation with eitheralternatingo'r directcur'rent outlets so-that the same unit is suitable'for-use at any I station independent" of the kind or current supply.) As viewed in Fig. 7, Whe'n"the"switch 2" il positioned to the left it is in its alternating current 1 position, however, when the switch is positioned t0 the right it-is in its direct dlll 'rellt position,

In order to condition the imit for-operation, the

operator inserts'switch plug Illinto the Jack 201 and switch plu ns' into the 100i lack-ill.

The power plug 2 is then plugged intoja conalready present in standard equipment. 1

For the purpose of the present description it .willbe-presumed that the DBI'flGUIfll' P1BO6 at which the, printerll is located is provided with alternatingcurrent and'therefore the switch "I F will be positioned to the left. With station :l' about to transmit a message to the distant station 22 currentnow flows over power conductor 2]! of plug 2| I, through contact ill how in. its lefthand position; over conductor! Hfwindingofcoil ll l over conductor 2|. through'contact 2'", over videdfor the purpose with directcurrent provided a Just described,

a circuit may be traced from positive lead Ill, through contact 282 now in its left position, overconductor-133; through the lower left-hand contact I of, switch'lli, inasmuch as switch ill ha been previously positioned in its downward or enciphcring position,v The circuit then extends over conductor 2", through plugslll tostation apparatus 2 with a return path over conductor 231, through ,contact 23], over conductor 2 through contact 15 0f dlrection'switch IOI- (switchnltlnow beinginits left-hand position for transmission from its associated local station to the remote station,;as previously explained), over conductor 242,- thr'ough the selector magnet I, over conductor 2", through contact 2, over conductor Ill-through contact I of current switch 205, over conductor 2" to negative poten tial. It is therefore found thatunder these conditions the selector magnet; 04 isenergired, and.

that. consequently sleeve II or the transmitter unit II is held from-rotation; At this timethere extends also tothe ciphering unit a second circuit afforded by the connection of the plug 20!. to the lack 201 which is associated with the loop circult which runs to the central exchange 23. This circuit can now lie-traced as follows: From one of potential conductors provided atflle witral exchange over conductor Ill; through the lower rightrhand contact lllr of switch I; over conductor ill. through contact 2 or switch III,

over conductors Ill and I", through the start magnet DI, over the conductor 251, through retransmitting contact ii I, over conductor-.258, over conductor 26i..through contacts", over conductor "I, through contact 2 of .switch I, and. over conductor II! to the other conductor provided with opposite potential-at the central exchange, ll.

tact arm Ill will therefore be operated to make power-conductor II to the opposite side of plug 2| l'.- This induces in the secondary power winding ,2 I} an alternating current for motor 3| as fol. lows: Over conductor Ill, through contacts ill,-

to the motor 3|, also over conductor 221, through;

contacts 223 to the motor II. The purpose of the secondary coil 2|! is to provide a compensat-, ing medium for changing from alternating to direct current to maintain a stabilized operating condition of the motor. However. the details of this arrangement need not be described since there are various methods of'providlng for either alternating or direct current. The energization positionduring a rest period and it will be as- Y. s'umed that a condition is encountered in which".

of coil 2|! also excites an additional secondary coil m which By means of the rectiflerindicated generally at 225 transforms the alternatingcurrent into direct'current. Associa ed with the rectifler is a filter indicated generally at m whichis composed of a conventional arrangement including a condenser 22'! and a resistance!" P O- orb'reak the circuit to the central, exchange to transmit, under thecontrol of key time I", en-

'ciplieredsignals. It will be undersi'.4:iod,'of course,

that' the' enciphered signals will be repeated at 'thecentral exchange is and eventually sent to -the distant madnn. a

.- It will now be assumed that the. distantstation "desires to transmit to the local station II and it'will be particularly :pointed out how the direc-- tion switch 1" is operated to its opposite position toreceive signals from the remote station. The transmitting arm H1 is now in its marking the station 22 commences to transmit. .When the start impulse is receivedlfrom the distant sta tion, start magnet I, which is normally ener- ,gized 'in the circuit previously described, will become de-energized andwill permit its armature lever shown in Fig. 4,to engage' screw 11 of:

, stop-arm lltoreleaseicam sleeve for rotation.- Since at this'time the selector magnet 64 remains in its energized condition when the .T-

lever 19 pushesagainst the control bar as by ofobtainingasteadydirect At time start magnet Cl 18 energized: m i

tions. In the modification, the direction switch bar has also beeno'mitted and switching is now performed by mean's'of a relay system; I v It is felt unnecessary to describe again por tions of the instant embodiment of the invention which are the same as the first embodiment and therefore such portions. will be described only Where necessary for the sake of clarity. Referring now to the drawings, 334 represents a continually driven shaft comparable with shaft 34 described in the first embodiment ofv the inven-.

tion. The-release of a sleeve 3 is accomplished by a selector magnet 364 and clutch mechanism" such as has already been described, except that the release'of the sleeve 34 I is accomplished solely by the selector magnet 364 inview of the fact that in. this embodiment of the invention, the start magnet has been dispensed with. Sleeve 3 is released. by the operation of gate latch 363 which acts upon the stop arm 342 integrally associated with the cam sleeve 3. Cam sleeve 34| carries a series of five transmitting cams 36| which are sequentially operable to control a series of five transmitting code bars 362. Cam sleeve 34|.also carries a start cam-353. fbrcontrolling the-start bar 364, a cam 356 for controlling the stop bar 366 and a contact operating cam 361',

the purpose of which will hereinafter appear.

As already mentioned, whereas in the first embodiment of the invention the code bars were shifted to the left or to the right under thecontrol' of tape sensing levers, the code bars are now similarly controlled by a set of code magnets 36| which may be operated from a key tape trans- I mitter 362 (Fig. 17). In response to'signalsfrom the key tape transmitter 362, armature levers 363 associated with respectivecode magnets 36| are moved to the left or right as viewed in Fig. 15 to enable their associated code bars 362 to assume similar positions. Similarly, selector magnet T-shaped operating levers 399. A Y-shaped lever 3|4 is moved to its marking or spacing position under the combined infiuence of signals received by the selector magnet364and by the code magnets 36L to operate thepair of contact arms 3|| to their marking or spacing. position, to control the signal contact mechanism 3|8. As indicated.

in Fig. 1'7, the contact mechanism 3|0 comprises two sets of retransmitting or repeater contacts 426 and 446, one set being associated with each of the pair of arms 3|1.. The contacts 426 are effective when signals are incoming from a remote station 404 (Fig. 17) ,,through the ciphering; unit 400 to the local station 40I, and contacts 446 are effective when-signals areuoutgoing from localstation 40| through the ciphering unit 400 to the remote station 404." Just before the end of each revolution of cam sleeve 34|,- contact-2 cam'36'l will move the bell crank lever 300 in a counterclockwiseldirection about its pivot "I (as viewed in Fig. 15) to operate the make-before .break contact 382 for a purpose which will here} inafter appear,which position is ma ing the restor stop period.

It will be understood that, as signals are received by the selector magnet 364, a start imthe release the'cam sleeve 3'. This causes the start cam 363 to operate the startbar 364 for sending 'a' start or no-current impulse by means of the contact operating arm 3. Immediately thereafter, the five code combination impulses a will be transmitted under the control of the code bars 362 associatedwith their respective code bar cams 33L At the termination of the transmission of the code combination stop cam 366 op- .erates to position code bar 366 to'control the contact operating arm 3|Ito its marking or current bodiment of the inventionmay be consulted for detailed'operations which are similar in Figs. 16, v 16, and 17; and which therefore have not been repeated in the present description.

unit will be described in detail. A local station 20 40| is equipped with a combination keyboard transmitter and printer of any well-known type, which is designed to communicate by means of central ofiices or exchanges 402 and 403 with a similarly equipped distantstation indicated at 404, which is provided with a ciphering unit 40!; identical in construction with the ciphering unit employedin the modified form of the invention. When-it is desired to attach the ciphering unit to any standard telegraph printing station, plug and jack connectionsmay be made at 406 and 401 which wil1=connect the local station 40| to a switch 403 and similarly connect the loop from the exchange 402 to the same switch at the plug connection 401'. When switch 403' is positioned to its up position, signals may betransmitted directly from station 401 to the central-office 402 without any enciphering operation taking place. However, when it is desired toencipher the sig-. nals, the switch 400- may be manually positioned 40 to its downward position and for the purposes of the present description, it'will be presumed that the switch has assumed'such a position. In, ad-

dition the cipheringunit will be provided with a plug 409 which may connect with any convenientalternating current outlet to provide the current to a motor 4| The unit will be further equipped .with a rectifier indicated generally at 2 which will provide positivecurrent over conductor 3, and negative current over conductor 4| 4, as is well known in rectifying circuits of this type.

It will be presumed for the first portion 01' the present description, that the local station I desires to transmit enciphered messages ts the rdmote station 404. 4 Normally, the selector mag- {let 364 in the rest condition of the apparatus is energized, as iscommon 'ractice in start-stop telegraphy, over the to wing circuit: From negative conductor "4|4, over conductor 6, through selector magnet 364, over conductor 1,

through tongue 0 of receiving relay 4|! (now de-ienergii ed) over conductor 42 l, and over conductor to positive conductor 4|3. When the apparatus at the local station 40l is inits rest position, winding 423 of the double wound repeating relay 424 is energized over't'he following 'circuit: From positive conductors 3, overconductor 426, through contact 426, ove conductor .421, through winding "'3 of relay 424,"over'con-.,

ductor 420, through tongue 423 of switch403 (now t i d 170 in its down position), over conductor 430, through a ne durp the printer apparatus at statio'n 40l, over conductor 432, tongue ,433 (in it's down position),

and over conductors 469 and M6, to the negative conductor 4 l4.

pulse will precede each code 'combination t o cause when, therefore, local station 40| transmits the' start, impulse, the

repeating relay 44L broken at the ing contact tongue 43! associated with the double wound relay 4l3, over conductor 436,"'through contact tongue 43l (now released) of'relay424, the positive-lead 4I3.

and over conductor 422to 4 Thus, at this time both relay 433 and 'relay4l3 become energized. When relay 413 becomes energized, tongue 4| 3 associated therewith is attracted and consequently the previously describedcircuit to the selector magnet 364 is broken, causing the just "described circuit? is 7 transmitting contacts 410 at the, local station 40f, in'awell known manner, caus-' its armature lever 366cooperates with the arma- ,7

mitting "contact so that signals may be thereby to the distant station. shunt circuit' for' contact 446- is as iollowsz Over lead 455,'through closed contact! of unoperated relay 433;-and over lead or conductor 431. 7

It is assumed thatsignals from station 40] are.

being repeated-by the repeating relay 424 which,

by opening and closing its contacts 43 I causes the signals to be repeated again bythe energi'zatlon and de-energizatio'n of .the winding 436 of the double-wound relay 4 l3; Therefore, selector magnet 364 will be similarly conditioned so that ture levers 363 of the code'magnets IN to con-' trol thej Y-shaped transmitting lever 3J4.v The centra1oflice 402 will transmit signals to station I 404 as its loop circuit extends through the contact release of the cam sleeve 34! for 9. cycles! op- I erations, in 'a' manner which is well-known in. 7 start-stop telegraphy. 'When relay 433 operates,

it locks up over the following circuit, sinc as, cam 361 commences to rotate, the "make-before:

433: 'From positive conducthrough contact 334 ing circuit'of relay 7 tor 4 i 3, over conductor; 431,

- 7 break contact 382 is permitted to operateto close -its contact 304 and 'open'its contact 306 to. en'- able the establishment oi the just mentioned lock-j it woundrepeating' relay'44l, over conductor 4",, to the contact 446, over conductor 444,1through tongue 461 of switch 408 to the loop conductor 453 433 ..ofrlay433;;through the winding of relay 433 over the conductor 432 to the negative lead m. In addition the oubie'wo ndrep et-p cult in order'to preventtn repetition otsignals back into the originating circuit whenoutgoing signals are I being transmitted (sometimes called tongue 444 or relay 443 (now closed), overconductor 444. over conductor 422, to positive :l'ead 3.. Since, the winding 464 ofrepeatingj relay it relay 441 was not thus locked-up, said relay would be operated in consonance ,withjthevibra tions of contact 443, thus operating itsarma ner, the repeating relay circuit to be. describedlaten' in order to prevent the repeating relay 424 from sending signals ba'ck circuit while' incoming" sigi from a remote stationg into the originating nals are being received At this time, contact 426 is rendered ineffective Theroperation of; cam361 at the termination 1 I V I is in the samecircuitwith contacts 443 and r 7 'ture .482 to disturb the control or selector magnet 304 by repeating relay'42j4'. In asimilar man- 4' ll "1 du a- 7 a W1 o'cke p m 'thekey tape-transmitter 362 are controlled by the for transmission and conversely, contact 4464s .conditioned'fo'r operation in the following manher: i The Moredescribed energizin circuit for th'edouble-wound repeatingrelay 424 is provided with a shunt or by-pass I at junction 420 on conductor'421, s01 that-after the first start impulse has become effective, 'thev contacts 426 will be shunted.- This shunt circuit extends from junction 420 over armature 441, (when attracted as previously described), over conductors 445 and 422 to positive source 4I3. It is therefore found that when contact arms 3I1 move to their marking contact 426 will be inefiective, so as not to inter- Iere with the outgoing signals, inasmuch asflthe tting contact of the transmitting circuit. Tr

443 is rendered effective time since its shunt circuit (hereinafter described), whichis normally closed, is now opened,

inasmuch as contact tongue 448'of relay 433 is attracted to open the shunt circuit for said transe to positive battery '4 I 3 positions, the closure of a 446'. Thus the loop'circuit is conditioned toreceive marking and spacing impulsesfaccording to the operation of the Y-shaped lever 3.

This

circuit is as followsr From conductor .4",

through tongue 462 of switch 403, over the conductor up, through the'winding464 of, double:

hich leads to the central omce identified as eac its normal condition,

each cycle ofoperatiomthrough the op ration oi contact :302, causes the energization of stepping magnet 46lnwhich steps the 'key tape atthe key conductor 482 associated with cable 403,over conductor 464,-through stepping magnet 40!, over i conductor 466,=over conductor 464, over conductors. 461, 468 and 463, then over conductor! 'to'th'e negative lead wire 4l4.,"l'.'herefore, during eachcycle of operationstepping magnet I will operate to step the tape to anew position.

1 The 'codemagnets-36l which are controlled by now to bedescribed circuit; From positive lead 4l3,over theconductor 4H, and over'cconductor 410 to the key tape bus bar 412, which is in this a manner normally provided with'positive potential. Thus, when a tape feeler in the-tape transmitter From; positive bus bar 7 er pin; over conductor 413a, thencethrough the circuit to contacts 426 has now been shunted out for transmission at this 1 469; and then over conductor to the local station '40l. .to the normally energized repeating relay 44!,

associated code magnet 36I to conductor 441 which acts as 'a negative busbar over the'ilollowing circuit: Over conductor ggpvef'conductor to negative lead *4l4. .Therefore, according to the marking and spacing conditions of thekey tape associated with the key transmitter 362 .code magnets 413. will be energized under marking conditions and de-ener- 'gized under spacing conditions. I e The circuit will now be described in connec-' tion with the receipt of signals from theoutlying or remote stations 404 which'are enciphered by means of the .ciphering unit 406 and then transmitted through central offices 403 and 402 At this time the circuit repeated llormally the It.;wi11 be understood that at the of! ycle of operation the make-beiore-br'eak I contaetjn will operate to openthe lockingcir cult extending over conductors 431"andj433 to the l in: relay m is lockedup over the fo lowing or; 1618143350 T h ui l r' f P 19 which is similar to the normally, energized repeating relay 424, is broken upon the receipt of a start or spacing-impulse from the remote-station 404. 'Ihi'sinitiatesa cycle of operation by the release of cam sleeve 34!, as has been pre-. viously described in detail. The circuit extend ing to the repeating relay 44! is as follows: From source of potential at central oifice 402,:..over con- :lu'ctor 458,- through contact 451 of switch 408,

station 404,'relay 44! will become de-energized and its tongue 482 will be released to establish a circuit for relay4l9and relay 484-as follows: From positive lead 4!3, over conductor 422 through tongue 482 of repeating relay 44!, over conductor 485, through the winding 483 of relay 4l9, over conductor 486, through thewinding of relay 484, over conductor 432 to the negative lead 4. When relay 484 becomes energized,*it is locked up as cam 351 operates to close the contact 384 as follows: From positive lead 3, over conductor 431, through contact 384, over conductor 438, through tongue 49!, through the winding of relay 484, over conductor 432 to negative lead 4. Operation of relay 484 also causes the locking up of the repeating relay 424 to prevent this relay operating'at this time in order that its contact tongue 43! may not interfere with signals in the circuit. This circuit is as follows: From positive lead 3, over conductor 422, over'conductor 445, to contact tongue 432 of relay 484, over conductor 493, through the locking winding 494 of relay 424, over the conductor 495, and over the conductor 432 to the negative conductor 4 4.

After the first start impulse has become effective, transmitting contact 446 is ltrriclged over the following shunt circuit already described above: Over conductor 455, through contact 448 of relay 433 (inasmuch as relay 433 is now de-energized) then 'over conductor 431. It is thus apparent at this time that the operation of contact 446 thereafter will produce no harmful reductor 421, through winding 423 of relay 424 (now locked) over conductor 428, through tongue 429 oiswitch 408, over conductor 430, through the printer at station 40!, and on a return path over conductor 432, through tongue 433, over conductor 469 and over conductor M5 to the ne ative source of potential 4!4. It i further apgraph substation equipment and the party may.

parent at this timethat selector magnet 364 will be operated according to incoming enciphered signals received from remote station 404 as relay 44! operates its tongue 482 and causes the operation of the double-wound repeating relay 4!9, which by its contact tongue 8 repeats the incoming signals to the selector magnet 364. As has already been mentioned, when cam 351 reaches its stop position the relay circuits are broken and the system is conditioned for reception in either direction. f

The device according to the present invention, of course, has manyapplications. Illustrative of one adaptation of the portable ciphering unit described herein, said unit may be readily carried aboutand attached to any printing tele- -be able to communicate secretly with any other substation having a similar unit attached. After they unit is plugged in and the switch operated to the plain message position, communication may be established to the. desired station by transmitting plain English to the central oflice or exchange as is now done in normal practice. When the desired station is connected and a similar' unit ha been attached at the'cailed station, theitwo cipher key mechanisms or unit are set in exact correspondence either according to a special code sent at the time '01 according to'prior informationreceived by. independent means. or by a prearranged schedule. have been verified, the switch at each station is operated to the ciphering position and enciphered transmimion may proceed.

It will be understood that various changes and modifications maybe made in the present invention without departing from the spirit and scope thereof," and the invention should accordingly be limited only by the appended claims.

What is'claimed is i 1. In a regenerative repeater, a start magnet, a. selector magnet, means to start the repeater at the beginning of a signal in response to' the operation of the start magnet, a contact mechanism, means to control the contact mechanism,

by the selecting magnet only, two signal circuits connected to the repeater, andmeans responsive to a signal initiated in either circuit to start the repeater units operating, and means responsive to the initiating impulse to connect the selector magnet in the circuit initiating the impulse and the start magnet in the other circuit.

2. In a telegraph system, a signa1 selecting device, a cam sleeve started into rotation at the beginning of each signal and stopped at the end of each signal, a plurality of circuits any one of whichmay receive controlling signals, a similar plurality of magnets, all of said magnets adapted to start the cam sleeve in motion, only one of said magnets being adapted to selectively control the'device, and mean to invariably connect the selecting magnet in the circuit which receives the initiating signal.

LOUIS M. PO'I'IS.

When the settings 

